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Models of buoyancy-driven dykes using continuum plasticity or fracture mechanics: a comparison

Abstract:
Abstract. Magmatic dykes play an important role in the thermomechanics of tectonic rifting of the lithosphere. Our understanding of this role is limited by the lack of models that consistently capture the interaction between magmatism, including dyking, and tectonic deformation. While linear elastic fracture mechanics (LEFM) has provided a basis for understanding the mechanics of dykes, it is difficult to consistently incorporate LEFM into geodynamic models. Here we further develop a continuum theory that represents dykes as plastic tensile failure in a two-phase Stokes–Darcy model with a poro-viscoelastic–viscoplastic (poro-VEVP) rheological law (Li et al., 2023). We validate this approach by making quantitative comparison with LEFM, enabled by a novel formulation for buoyancy-driven porous dykes (poro-LEFM). The comparison shows that dykes in our continuum theory propagate slowly – a consequence of Darcian drag on the magma. Moreover, dissipation of mechanical energy in the poro-VEVP model implies a high critical stress intensity in LEFM. We improve the poro-VEVP model by reformulating the compaction stress and incorporating anisotropic permeability in regions of plastic failure.
Publication status:
Published
Peer review status:
Peer reviewed

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Publisher copy:
10.5194/gmd-18-6219-2025

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Role:
Author
ORCID:
0000-0002-6444-6138
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Role:
Author
ORCID:
0000-0003-2302-5203
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Institution:
University of Oxford
Role:
Author
ORCID:
0000-0002-4439-8124
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Institution:
University of Oxford
Role:
Author
ORCID:
0000-0001-8746-5430


Publisher:
Copernicus Publications
Journal:
Geoscientific Model Development More from this journal
Volume:
18
Issue:
18
Pages:
6219-6238
Publication date:
2025-09-23
DOI:
EISSN:
1991-9603
ISSN:
1991-959X


Language:
English
Keywords:
Pubs id:
2295941
Local pid:
pubs:2295941
Source identifiers:
W4414440420
Deposit date:
2025-10-03
ARK identifier:
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